Oxidative Stress and AP-1 Activity in Tamoxifen-Resistant Breast Tumors In Vivo

Schiff, Rachel; Reddy, P. Jagan Mohan; Ahotupa, Markku; Coronado-Heinsohn, Ester; Grim, Matt; Hilsenbeck, Susan G.; Lawrence, Richard; Deneke, Susan M.; Herrera, Rafael E.; Chamness, Gary C.; Fuqua, Suzanne A.W.; Brown, Powel H.; Osborne, C. Kent

doi:10.1093/jnci/92.23.1926

Cited by 176 publications

(117 citation statements)

References 38 publications

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“…As HER2 upregulation is known to activate Ras/Erk signaling (P , 0.0001; Figure 7E), this observation is in agreement with our data, highlighting cooperation between Ras and JNK signaling. The association of a high JNK signature in ER 1 /HER2 2 ("luminal" subtype) breast cancers is also consistent with reports from previous clinical studies and xenograft models of tamoxifen resistance, which have reported a positive association with activated/phosphorylated JNK ( Johnston et al 1999;Schiff et al 2000), although these tumors do not show high expression of the Ras signature ( Figure 7E). While Ras is not an established oncogene in breast cancer, Ras pathway upregulation is recognized to be important for breast cancer growth and tumorigenesis (reviewed by Whyte et al 2009), and our data support a link between Ras and JNK signaling in HER2 1 breast cancers.…”

Section: Uas-pbl-gfp#8supporting

confidence: 90%

Identification of Novel Ras-Cooperating Oncogenes in Drosophila melanogaster: A RhoGEF/Rho-Family/JNK Pathway Is a Central Driver of Tumorigenesis

et al. 2011

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We have shown previously that mutations in the apico-basal cell polarity regulators cooperate with oncogenic Ras (Ras ACT ) to promote tumorigenesis in Drosophila melanogaster and mammalian cells. To identify novel genes that cooperate with Ras ACT in tumorigenesis, we carried out a genome-wide screen for genes that when overexpressed throughout the developing Drosophila eye enhance Ras ACT -driven hyperplasia. Ras ACT -cooperating genes identified were Rac1 Rho1, RhoGEF2, pbl, rib, and east, which encode cell morphology regulators. In a clonal setting, which reveals genes conferring a competitive advantage over wildtype cells, only Rac1, an activated allele of Rho1 (Rho1 ACT ), RhoGEF2, and pbl cooperated with Ras ACT , resulting in reduced differentiation and large invasive tumors. Expression of RhoGEF2 or Rac1 with Ras ACT upregulated Jun kinase ( JNK) activity, and JNK upregulation was essential for cooperation. However, in the whole-tissue system, upregulation of JNK alone was not sufficient for cooperation with Ras ACT , while in the clonal setting, JNK upregulation was sufficient for Ras ACT -mediated tumorigenesis. JNK upregulation was also sufficient to confer invasive growth of Ras V12 -expressing mammalian MCF10A breast epithelial cells. Consistent with this, HER2 1 human breast cancers (where human epidermal growth factor 2 is overexpressed and Ras signaling upregulated) show a significant correlation with a signature representing JNK pathway activation. Moreover, our genetic analysis in Drosophila revealed that Rho1 and Rac are important for the cooperation of RhoGEF2 or Pbl overexpression and of mutants in polarity regulators, Dlg and aPKC, with Ras ACT in the whole-tissue context. Collectively our analysis reveals the importance of the RhoGEF/ Rho-family/JNK pathway in cooperative tumorigenesis with Ras ACT .

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Section: Uas-pbl-gfp#8supporting

confidence: 90%

Identification of Novel Ras-Cooperating Oncogenes in Drosophila melanogaster: A RhoGEF/Rho-Family/JNK Pathway Is a Central Driver of Tumorigenesis

et al. 2011

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“…In addition, they found that the conversion to a resistant phenotype was associated with an increase in oxidative stress (as measured by increases in superoxide dismutases and glutathione-S-transferase). It has been known for some years that tamoxifen can induce intracellular oxidative stress, and these data would be consistent with a model where tamoxifen-induced oxidative stress leads to activation of JNK and increased AP-1 activity (Schiff et al 2000, Clarke et al 2001. Such a chain of events could potentiate the agonistic effects of tamoxifen at AP-1 sites (Webb et al 1995).…”

Section: Pi3k Cell Survival Pathwaysupporting

confidence: 58%

“…These findings have been replicated in a panel of 30 primary human breast tumours with acquired tamoxifen resistance, compared with 27 untreated controls (Johnston et al 1999). Similarly, but using a mouse xenograft model, Schiff and colleagues showed that tamoxifen-resistant tumours, compared with oestrogentreated tumours, had increased AP-1 dependent transcription and phosphorylated c-Jun and JNK levels (Schiff et al 2000). In addition, they found that the conversion to a resistant phenotype was associated with an increase in oxidative stress (as measured by increases in superoxide dismutases and glutathione-S-transferase).…”

Section: Pi3k Cell Survival Pathwaymentioning

confidence: 98%

Mechanisms of tamoxifen resistance

Ring

Dowsett²

2004

Endocr Relat Cancer

551

459

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The anti-oestrogen tamoxifen is the most commonly used treatment for patients with oestrogenreceptor (ER)-positive breast cancer. Although many patients benefit from tamoxifen in the adjuvant and metastatic settings, resistance is an important clinical problem. The target of tamoxifen in vivo is the ER. Over the last decade many advances have been made in our understanding of the biology of the ER which may help to explain how resistance to tamoxifen develops. Such mechanisms may include changes in the expression of ERa or ERb, alterations in co-regulatory proteins, and the influences of cellular kinase signal transduction pathways. The experimental and clinical evidence supporting these mechanisms of tamoxifen resistance are discussed in this review.

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“…Therefore, the analysis of N-terminal phosphorylation of c-Jun at both S63/73 and T91/T93 is essential for associating c-Jun activation to either prosurvival or pro-apoptotic pathways. To date, c-Jun phosphorylation in response to tamoxifen has been analysed only in tamoxifen-resistant MCF-7-derived xenografts and limited to the S63 site (Schiff et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

c-Jun activation is required for 4-hydroxytamoxifen-induced cell death in breast cancer cells

et al. 2009

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Oxidative Stress and AP-1 Activity in Tamoxifen-Resistant Breast Tumors In Vivo

Abstract: Our results suggest that the conversion of breast tumors to a tamoxifen-resistant phenotype is associated with oxidative stress and the subsequent antioxidant response and with increased phosphorylated JNK and c-Jun levels and AP-1 activity, which together could contribute to tumor growth.

Cited by 176 publications

References 38 publications

Identification of Novel Ras-Cooperating Oncogenes in Drosophila melanogaster: A RhoGEF/Rho-Family/JNK Pathway Is a Central Driver of Tumorigenesis

Identification of Novel Ras-Cooperating Oncogenes in Drosophila melanogaster: A RhoGEF/Rho-Family/JNK Pathway Is a Central Driver of Tumorigenesis

Mechanisms of tamoxifen resistance

c-Jun activation is required for 4-hydroxytamoxifen-induced cell death in breast cancer cells

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